教师队伍

王永田
  • 姓名:王永田
  • 职称:讲师
  • 学历:研究生
  • 学位:博士
  • 研究方向:
  • 非晶及陶瓷涂层方面的研究,采用爆炸喷涂和快冷熔覆等方法制备了系列高性能非晶及陶瓷涂层
  • 主要经历及介绍:
  • 2002年在重庆大学获得应用物理学本科学位 2005年获得中科院与重庆大学联合培养的物理硕士学位 2008年毕业于中国科学院物理研究所,获得博士学位 2008年7月起在华北电力大学能源动力与机械学院材料教研室工作
已发表二十余篇SCIEI 论文,累计被SCI引用达130余次,并取得发明专利一项,另有一项专利在受理中。在研项目一项。

 

 

 

[1] Y. T. Wang, X. K. Xi. Pan, G. Wang, X. Q. Xia, W. H. Wang, Understanding of nanoscale periodic stripes on fracture surface of metallic glassesJournal of applied physics. 106, 113528 (2009). IF2.2

 

[2] Y. T. Wang, H. Y. Bai, M. X. Pan, D. Q. Zhao, W. H. Wang, Giant enhancement of magnetocaloric effect in metallic glass matrix composite, Science in China Series:G 51, 337-348 (2008). IF1.0

 

[3] Y. T. Wang, X. K. Xi, Y. K. Fang, D. Q. Zhao, M. X. PanB. S. Han and W. H. Wang, Tb nanocrystalline array assembled directly from alloy melt, Applied Physics Letters, 85, 5989. (2004). 同时被 Virtual Journal of Nanoscale Science & Technology 10(25) (2004)所选中发表. IF4.0

 

[4] Y. T. Wang, M. X. Pan, D. Q. Zhao, W. H. Wang, W. L. Wang, Unusual diamagnetic response in PrAlNiCuFe metallic glass, Applied Physics Letters, 85, 2881 (2004). IF4.0

 

[5] Y. T. Wang, H. Y. Bai, M. X. Pan, D. Q. Zhao, W. H. Wang, Multiple spin-glass-like behaviors in a Pr-based bulk metallic glass, Phys. Rev. B, 74, 064422 (2006). IF3.3

 

[6] Y. T. Wang, Z. Y. Pang, R. J. Wang, D. Q. Zhao, M. X. PanB. S. Han, W. L. Wang, W. H. Wang. Doping-induced formation of bulk nanocrystalline alloys with controllable microstructure and properties. Journal of Non-Crystalline Solids, 352, 444–449 (2006). IF1.4

 

[7] Y. T. Wang, Y. K. Fang, M. X. Pan, D. Q. Zhao, B. S. Han, W. H. Wang, Scratching induced large-area and tunable perpendicular anisotropy in flexible metallic glass under ambient conditions, Journal of Non-Crystalline Solids352, 2925–2928 (2006). IF1.4

 

[8] Y. T. Wang, Z. F. Zhao, Z. Y. Pang, R. liu, D. Q. Zhao, M. X. Pan, W. L. Wang, B. S. Han, W. H. Wang, Pr-based bulk nanocrystalline alloy and its properties, Acta Physica Sinica 54(6), 2838-2842 (2005). IF1.2

 

[9] G. Wang, Y. T. Wang, Y. H. Liu, M. X. Pan, D. Q. Zhao, W. H. Wang, The evolution of nanoscale morphology on fracture surface of brittle metallic glass, Applied Physics Letters, 89, 121909 (2006). 同时被 Virtual Journal of Nanoscale Science & Technology 14(14) (2006) 所选中发表. IF4.0

 

[10] K.J. Liao, W. L. Wang, Y. T. Wang, J. W. Lu, X. L. Sun, Field electron emission from carbon nanotube films on diamond films, Material science forum, 475-479, 3587-3590 (2005).

 

[11] Z. Y. Pang, S. H. Han, Y. T. Wang, W. H. Wang, B. S. Han, Microstructure and magnetic microstructure of the Pr60Al10Ni10Cu20-xFex alloys observed by magnetic force microscopy, Journal of Magnetism and Magnetic Materials, 288, 478-482 (2005).

 

[12] W. L. Wang, K. J. Liao, Y. Li, Y. T. Wang, Piezoresistive effect of doped carbon nanotube/cellulose films, Chinese Physics Letters, 20, 1544-1547(2003).

 

[13] Z. H. Wu, W. L. Wang, K. J. Liao, Y. T. Wang, C. G. Hu, G. Z. Fu, B. Y. Wan, P. Yu, Study on the humidity sensitive behavior of multiwalled carbon nanotubes, Acta Physica Sinica, 53, 3462-3466 (2004).

 

[14] S. Li, X. K. Xi, Y. X. Wei, Q. Luo, Y. T. Wang, M. B. Tang, B. Zhang, Z. F. Zhao, R. J. Wang, M. X. Pan, D.Q. Zhao, W. H. Wang, Formation and properties of new heavy rare-earth-based bulk metallic glasses, Science and Technology of Advanced Materials 6, 823–827(2005).

 

[15] C. G. Hu, W. L. Wang, K. J. Liao, G. B. Liu, Y. T. Wang, Systematic investigation on the properties of carbon nanotube electrodes with different chemical treatments, Journal of Physics and Chemistry of Solids, 65,1731-1736 (2004).

 

[16] W. L. Wang, K. J. Liao, Z. H. Wu, Y. T. Wang, L. Li, J. Zhang, Effect of annealing treatment on optical and electrical properties of ZnO films, Transactions of Nonferrous Metals Society of China, 15(2),410-413 (2005).

 

[17] C. G. Hu, W. L. Wang, K. J. Liao, Y. T. Wang, Simultaneous measurement of epinephrine and ascorbic acid at the carbon nanotube electrode, Journal of Metastable and Nanocrystalline Materials, 23, 305-308 (2005).

 

[18] K. J. Liao, W. L. Wang, P. Xiao, P. Yu, Y. T. Wang, J. W. Lu, Investigation on light-emitting behaviors from ladder-type poly(p-phenylene) with carbon nanotubes, Publication: Proc. SPIE, Vol. 5634, 713-718 (2005).

 

[19] J. W. Lu, W. L. Wang, K. J. Liao, Y. T. Wang, C. L. Liu and Q. G. Zeng, Piezoresistive sensors based on carbon nanotube Films, Semiconductor Photonics and Technology, 11(1), 61-64 (2005).

 

[20] Y. Zhang, W. L. Wang, K. J. Liao, Y. T. Wang, Measurement of rotational speed by carbon nanotubes, Macrofabrication Technology, 3, 37-41 (2003).

 

[21] B. Y. Wan, W. L. Wang, K. J. Liao, Y. T. Wang, Z. H. Wu, P. Yu, P. Sun. Study on the gas sensitive characteristics of mull-wall carbon nanotube films, Vacuum Science and Technology, 23 (5), 323-327 (2003).

 

[22] B. Y. Wan, W. L. Wang, K. J. Liao, F. Y. Wei, Z. H. Wu, Y. T. Wang, Chemical modification effect on gas absorption of carbon nanotubes, Journal of Functional Materials, 35, 2887-2889 (2004).

 

[23] 王永田,王刚,郗学奎,潘明祥,赵德乾,汪卫华,脆性大块非晶合金的断裂行为研究,第四届全国非晶合金及其复合材料学术会议,2007

 

[24] 王永田, 庞智勇, 赵作峰, 潘明祥, 赵德乾, 韩宝善,王万录, 汪卫华, 掺杂法制备稀土基大块纳米晶, 第三界全国非晶材料会议学术研讨会-论文集,P-39(2004).

 

[25] 夏新祥,王永田, 潘明祥, 赵德乾,汪卫华,金属玻璃断面上的奇妙图案,物理,298 (2008).

 

[26] 王万录,王永田, 廖克俊,刘高斌,李勇,马勇, 应力诱导碳纳米管电阻的变化, 微纳电子技术40(7), 514516 (2003).

 

[27] 吕建伟, 王万录, 王永田, 万步勇, 孔纪兰,纳米碳管分子整流器件的研究进展,材料导报,18(3). 64-66(2004).

 

[28] 王必本, 王万录, 赵作峰, 刘高斌, 王永田, CHOISeungho, 催化剂厚度对碳纳米管直径的影响, 重庆大学学报,26(7),59-62 (2003).

 

[29] 吕建伟,王万录,廖克俊,王永田,万步勇,孔纪兰,电解液栅型碳纳米管场效应晶体

 

管的实验研究,重庆大学学报,28(1), 149-152 (2005).

 

[30] 王万录,吴子华,廖克俊,刘高斌,万步勇,王永田,化学处理增强碳纳米管的湿敏效应, 微纳电子技术40(7), 517519(2003).

 

 

 

发明专利: 

 

[1]王永田, 赵德乾, 潘明祥, 汪卫华,一种铽基大块非晶合金及其制备方法。专利号:200510085507.2.

 

[2]刘宗德,戴兰宏,王永田,胡卫强,王松,张华磊,宝志坚,一种在铝合金基体上制备含Fe-Si-B系非晶相涂层的方法。专利申请号:200910084510.0.

 

 

 

著作:

 

负责了由教育部、科学技术部、中国科学院、国家自然科学基金委员会四部门联合组织的《10000个科学难题》系列丛书《物理学卷》的部分编写内容,并已由科学出版社于20095月出版。

 

 

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